by University of East Anglia
Global carbon emissions are set to hit an all-time high in 2018—according to researchers at the University of East Anglia (UEA) and the Global Carbon Project.
A projected rise of more than 2 per cent has been driven by a solid growth in coal use for the second year in a row, and sustained growth in oil and gas use.
The news is a further call to action for governments at the UN Climate Change Conference (COP 24) in Katowice this week.
But the research team say energy trends are changing and that there is still time to address climate change if efforts to curb carbon emissions rapidly expand in all sectors of the economy.
The new data for 2018, published today simultaneously in the journals Nature, Earth System Science Data and Environmental Research Letters, reveals that global emissions from burning fossil fuels are expected to reach 37.1 billion tonnes of CO2 in 2018.
CO2 emissions have now risen for a second year, after three years of little-to-no growth from 2014 to 2016. The rise this year is projected at 2.7 per cent (+1.8 to +3.7 per cent). In 2017 it was 1.6 per cent.
The 10 biggest emitters in 2018 are China, the US, India, Russia, Japan, Germany, Iran, Saudi Arabia, South Korea, and Canada. The EU as a whole region of countries ranks third.
Lead researcher Prof Corinne Le Quéré, Director of the Tyndall Centre for Climate Change Research and Professor of Climate Change Science and Policy at UEA, said: 'We are seeing a strong growth of global CO2 emissions once again.
'Emissions need to peak and rapidly decrease to address climate change. With this year's growth in emissions, it looks like the peak is not yet in sight.
'To limit global warming to the Paris Agreement goal of 1.5°C, CO2 emissions would need to decline by 50 per cent by 2030 and reach net zero by around 2050. We are a long way from this and much more needs to be done because if countries stick to the commitments they have already made, we are on track to see 3°C of global warming.
'This year we have seen how climate change can already amplify the impacts of heatwaves worldwide. The California wildfires are just a snapshot of the growing impacts we face if we don't drive emissions down rapidly.'
What is driving the rise?
This year's rising emission figures are largely due to solid growth in coal use, but coal still remains below its historical high in 2013. Coal use may soon exceed this 2013 peak if current growth continues.
Oil use is growing strongly in most regions, with a rise in emissions from cars and lorries, including in the US and Europe. Flights have also contributed to the oil rise. Gas use has grown almost unabated in recent years.
Prof Le Quéré said: 'The growing global demand for energy is outpacing decarbonisation for now. This needs to change, and change quickly to address climate change.
Gopro hero 7 black. 'We need strong policy and economic support for rapid deployment of low carbon technologies to cut emissions across the energy and transport sectors, from buildings and from industry.
'Energy trends are changing rapidly, with coal use decreasing in many parts of the world and still below its 2013 level globally, and an explosion in wind and solar energy. But while renewables are rising fast, it is not yet enough to reverse global emissions trends.
'The rapid actions needed to address climate change also need to be fair to all generations,' she added.
Dr. Glen Peters, a Research Director at the CICERO Center for International Climate Research in Oslo, who led the emissions analysis, said: 'Global commitments made in Paris in 2015 to reduce emissions are not yet being matched by proportionate actions.
'Despite rapid growth in low carbon technologies such as solar and wind power, electric vehicles, and batteries, not nearly enough is being done to support policies that limit the amount of carbon dioxide that is put into the atmosphere.
'The rise in emissions in 2017 could be seen as a one-off, but the growth rate in 2018 is even higher, and it is becoming crystal clear the world is so far failing in its duty to steer onto a course consistent with the goals set out in the Paris Agreement in 2015.'
CO2 emissions from deforestation and other human activities on land contributed an additional 5 billion tonnes of CO2 this year, bringing total CO2 emissions to 41.5 billion tonnes of CO2. The global trends in those emissions are unclear due to large uncertainties in the data.
Concentrations of carbon dioxide (CO2) in the atmosphere are set to increase by around 2.3 parts per million on average in 2018 in response to continued CO2 emissions, to reach about 407 parts per million over the year. This is 45 per cent above pre-industrial levels. The rise of CO2 in the atmosphere is the main cause of climate change.
Global Co2 Emissions 2018 By Country
The good news
Countering rising global emissions are 19 countries where emissions have reduced and their economy has grown. Aruba, Barbados, the Czech Republic, Denmark, France, Greenland, Iceland, Ireland, Malta, the Netherlands, Romania, Slovakia, Slovenia, Sweden, Switzerland, Trinidad and Tobago, the UK, the US, and Uzbekistan have all decreased their emissions over the past decade (2008-2017).
Deployment of renewable energy worldwide is accelerating exponentially, with electricity generation growing at 15 per cent per year on average over the last decade. But this has not been enough to offset the growth in fossil energy because renewables are growing from a low base. This is changing rapidly.
Christiana Figueres, Mission 2020 campaign group leader and lead author of the Nature Commentary, said: 'Global CO2 emissions must start to fall from 2020 if we are to meet the temperature goals of the Paris agreement, but this is within our grasp. We have already achieved things that seemed unimaginable just a decade ago.
'Exponential progress in key solutions is happening and on track to displace fossil fuels. Renewable energy technology costs have dropped by 80 per cent in a decade, and today, over half of all new energy generation capacity is renewable. Before 2015 many people thought the Paris Agreement was impossible, yet thousands of people and institutions made the shift from impossible to unstoppable. The same is true of decarbonizing the economy. Propelled by the pursuit of clean air, jobs and energy-independence among other benefits, the intrepid, collective efforts of young people, civil society, businesses, investors, cities and states are charting the course to net zero emissions by 2050.'
How different countries compare
Almost all countries have contributed to the rise in global emissions, either through growth in emissions or through reductions that are slower than expected.China's emissions account for 27 per cent of the global total, having grown an estimated 4.7 per cent (+2 per cent to +7.4 per cent) in 2018 and reaching a new all-time high. The growth in emissions is linked to construction activity and economic growth, part of which may be due to temporary stimulus-driven credit growth. Energy from renewables is growing by 25 per cent per year, but from a low base.
Emissions in the US account for 15 per cent of the global total, and look set to have grown about 2.5 per cent (+0.5 per cent to +4.5 per cent) in 2018 after several years in decline. The new rise is due to robust growth in oil use of about 1.4 per cent, associated with an increase in car journeys, and gas of about 7.6 per cent. Emissions from coal use look set to have decreased by around -2.1 per cent in 2018, continuing a shift away from coal, with a 40 per cent decrease in CO2 emissions from coal since 2007, mainly towards gas, and more recently also towards renewables for power generation.
EU emissions account for 10 per cent of global emissions and a small decline of around -0.7 per cent is projected, well below the declines of ?2 per cent per year in the decade up to 2014. Estimated declines in coal and gas use due to the growth in renewable energy have been partially offset by a growth in oil use. The amount of fuel used for road transport and flights has surged by around 4 per cent in the EU. Overall EU emissions are still near or above their 2014 levels.
India's emissions, accounting for 7 per cent of the global total, have continued to grow by around 6.3 per cent, as their economy booms. Wind and solar are growing fast, albeit from a low base.
Emissions in the rest of the world, the remaining 42 per cent of global emissions, are expected to grow about 1.8 per cent (+0.5 per cent to +3.0 per cent) this year. The five countries contributing most to the rest-of-the-word growth in global emissions in the last decade are Saudi Arabia, Iran, Turkey, Iraq and South Korea.
More information: Christiana Figueres et al. Emissions are still rising: ramp up the cuts, Nature (2018). DOI: 10.1038/d41586-018-07585-6
Yangyang Xu et al. Global warming will happen faster than we think, Nature (2018). DOI: 10.1038/d41586-018-07586-5
Jackson, R.B., C. Le Quéré, R. M. Andrew, J.G. Canadell, J.I. Korsbakken, Z. Liu, G.P. Peters, and B. Zheng (2018). Global Energy Growth Is Outpacing Decarbonization, Environmental Research Letters. doi.org/10.1088/1748-9326/af303
Le Quéré et al. (2018) Global Carbon Budget 2018. Earth System Science Data. doi.org/10.5194/essd-10-2141-2018
Carbon Emissions By Country 2018
Journal information:Nature, Environmental Research Letters
Citation: Strong growth in global CO2 emissions expected for 2018 (2018, December 5) retrieved 1 July 2019 from https://phys.org/news/2018-12-strong-growth-global-co2-emissions.html
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This is by far the most of any country in the world, and is primarily a result of shifting coal-fired power to natural gas and renewables. The EU has also made significant strides, reducing its annual carbon dioxide emissions by 681 million tons.These reductions paled in comparison to China's two billion ton per year increase in emissions, but China's emissions have been relatively flat since 2013. This, combined with the decreases in the U.S. and EU, have helped slow the growth rate of carbon dioxide emissions in the past decade versus the previous decade:
It is true that the U.S. has put more carbon dioxide into the atmosphere than any other country, and that U.S. Rage of the dark gods. per capita emissions are among the highest in the world. But it is also true that the U.S. won't solve this problem alone (even if we weren't dropping out of global climate treaties).
Regardless of the actions taken by developed countries, the primary driver of carbon dioxide emissions in coming decades will be areas of the world with huge populations, but with low, and growing per capita emissions. A small increase in those per capita emissions can result in a huge increase in overall emissions -- amply demonstrated by Asia Pacific's skyrocketing emissions.
Thus, the most pressing need in the world today is to ensure that countries can develop without a heavy reliance on coal and other fossil fuels, because this is the reason for the status quo.
In April of this year, the Mauna Loa Observatory in Hawaii recorded an average concentration of atmospheric carbon dioxide above 410 parts per million (ppm). This was the highest monthly average in recorded history, and in fact according to ice core records it is the highest value in at least 800,000 years.
To be clear, I accept the scientific consensus on the impact of a rising atmospheric carbon dioxide concentration. It is a known greenhouse gas, and the mechanism by which greenhouse gases increase the earth's temperature is known. While there are uncertainties in the models -- and these uncertainties are often used to dispute the underlying science -- a constant buildup of greenhouse gases will raise the earth's temperature.
Part of what is unknown about the effect of greenhouse gases on climate is the impact of feedback loops. These can be both positive and negative.
A warming earth can release methane from permafrost. Methane is a powerful greenhouse gas, and that creates a positive feedback loop.
There are also moderating influences like the oceans, which can absorb a certain amount of carbon dioxide. This means that the temperature increase could be less than what might be expected based simply on the amount of carbon dioxide that was released.
The impact of these feedback loops and moderating influences is one reason climate models can be inaccurate.
Even those who don't accept the science behind climate change should be concerned about this rise, because it continues unabated. At what point might it become a concern? 500 ppm? 1,000? If you look at the rate of steady increases, this curve should concern everyone on the planet because the increase is slowly accelerating over time:
In April of this year, the Mauna Loa Observatory in Hawaii recorded an average concentration of atmospheric carbon dioxide above 410 parts per million (ppm). This was the highest monthly average in recorded history, and in fact according to ice core records it is the highest value in at least 800,000 years.
To be clear, I accept the scientific consensus on the impact of a rising atmospheric carbon dioxide concentration. It is a known greenhouse gas, and the mechanism by which greenhouse gases increase the earth's temperature is known. While there are uncertainties in the models -- and these uncertainties are often used to dispute the underlying science -- a constant buildup of greenhouse gases will raise the earth's temperature.
Part of what is unknown about the effect of greenhouse gases on climate is the impact of feedback loops. These can be both positive and negative.
A warming earth can release methane from permafrost. Methane is a powerful greenhouse gas, and that creates a positive feedback loop.
There are also moderating influences like the oceans, which can absorb a certain amount of carbon dioxide. This means that the temperature increase could be less than what might be expected based simply on the amount of carbon dioxide that was released.
The impact of these feedback loops and moderating influences is one reason climate models can be inaccurate.
Even those who don't accept the science behind climate change should be concerned about this rise, because it continues unabated. At what point might it become a concern? 500 ppm? 1,000? If you look at the rate of steady increases, this curve should concern everyone on the planet because the increase is slowly accelerating over time:
Full Mauna Loa CO2 record
National Oceanic and Atmospheric AdministrationThe worrisome part is that the trend isn't expected to change anytime soon. Carbon dioxide that is emitted today takes time to accumulate in the atmosphere, and then it remains in the atmosphere for thousands of years.
In any case, there are no signs that what we are emitting is slowing down.
The 2018 BP Statistical Review of World Energy that was released earlier this month showed a new all-time high for global carbon dioxide emissions in 2017, which were 426 million metric tons higher than in 2016. This was 1.6% higher than carbon dioxide emissions in 2016, and was higher than the 10-year average growth rate of 1.3%.
Since the Kyoto Protocol -- the international treaty that commits state parties to reduce greenhouse gas emissions -- went into effect in 2005, global carbon dioxide emissions have increased by 19%.
The countries responsible for the increase in carbon dioxide concentrations have shifted in recent decades. Developed countries are moving away from coal, and toward cleaner natural gas and renewables. Developing countries -- even those that are embracing renewable energy -- emit the most carbon dioxide, and their emissions are growing at the fastest rates in the world.
I will delve deeper into regional and country-level contributions and trends in the next article.